Print this pageAlong-Strike Variation in 
Displacement
and Structural Style Across
Mechanical Stratigraphy: An Example from Northwest Alberta, Canada
Gregory S. Soule and Glenn Larson
Devon Canada
Corporation, Calgary, AB
Three-dimensional seismic data over the Narraway structure in NW Alberta
are used to evaluate the change in the dip displacement in the strike direction,
or the displacement gradient, of a single thrust structure. The Narraway
structure is a relatively simple thrust sheet at the leading edge of foothills
deformation with a basal detachment in the Paleozoic carbonate strata. The high
quality, large area three-dimensional seismic survey combined with numerous
seismic marker horizons and good well control make this a unique opportunity to
observe the displacement gradient. The displacement gradient is the difference
in dip displacement divided by the strike distance between section measurements.
This gradient results in a “bow and arrow” geometry, and is a useful concept
introduced by Elliot (1976) who suggested dip displacement changed by 7% of the
strike distance. This study found the value to be approximately 2%.
The three-dimensional seismic data are used to determine the shortening
in the dip direction of the thrust sheet and the related folds along strike in a
series of dip sections. The displacement gradient is then calculated from the
central part of the structure to the tip line of the Paleozoic thrust offset
where the basal detachment ramps laterally up to a position in the shallower
Cretaceous strata. The less competent Cretaceous strata are folded into tight
box folds disharmonically above the Paleozoic. The displacement
gradient is also
calculated for the Cretaceous section and compared across the lateral ramp for
any departure from the gradient established for the Paleozoic and the Cretaceous
strata.
Elliott, D., 1976, The energy balance and deformation mechanisms of thrust sheets: Royal Society of London Philosophical Transactions, ser. A, v. 283, p. 289-312.
AAPG Search and Discovery Article #90039©2005 AAPG Calgary, Alberta, June 16-19, 2005